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[1] |
Ewa Majchrzak, Bohdan Mochnacki, Application of numerical methods for solving the non-fourier equations. A review of our own and collaborators’ works, Journal of Applied Mathematics and Computational Mechanics, 17(2), 2018, pages 43-50.
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[2] |
Ewa Majchrzak, Bohdan Mochnacki, Implicit scheme of the finite difference method for 1D dual-phase lag equation, Journal of Applied Mathematics and Computational Mechanics, 16(3), 2017, pages 37-46.
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[3] |
Bohdan Mochnacki, Mateusz Duda, Numerical analysis of thermal processes in the system protective clothing - biological tissue subjected to an external heat flux, Journal of Applied Mathematics and Computational Mechanics, 15(2), 2016, pages 85-93.
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[4] |
Ewa Majchrzak, Bohdan Mochnacki, Dual-phase lag equation. Stability conditions of a numerical algorithm based on the explicit scheme of the finite difference method, Journal of Applied Mathematics and Computational Mechanics, 15(3), 2016, pages 89-96.
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[5] |
Mariusz Ciesielski, Mateusz Duda, Bohdan Mochnacki, Comparison of bio-heat transfer numerical models based on the Pennes and Cattaneo-Vernotte equations, Journal of Applied Mathematics and Computational Mechanics, 15(4), 2016, pages 33-38.
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[6] |
Bohdan Mochnacki, Wioletta Tuzikiewicz, Cattaneo-Vernotte bioheat transfer equation. Stability conditions of numerical algorithm based on the explicit scheme of the finite difference method, Journal of Applied Mathematics and Computational Mechanics, 15(4), 2016, pages 137-144.
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[7] |
Mateusz Duda, Bohdan Mochnacki, 3D model of thermal interactions between human forearm and environment, Journal of Applied Mathematics and Computational Mechanics, 14(3), 2015, pages 17-23.
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[8] |
Bohdan Mochnacki, Ewa Majchrzak, Mateusz Duda, Numerical modeling of thermal processes in the living tissue domain secured with a layer of protective clothing, Journal of Applied Mathematics and Computational Mechanics, 13(1), 2014, pages 87-94.
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[9] |
Mariusz Ciesielski, Bohdan Mochnacki, Numerical simulation of the heating process in the domain of tissue insulated by protective clothing, Journal of Applied Mathematics and Computational Mechanics, 13(2), 2014, pages 13-20.
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[10] |
Bohdan Mochnacki, Ewa Majchrzak, Mateusz Duda, Simplified model of thermal interactions between environment, protective clothing and skin tissue, Journal of Applied Mathematics and Computational Mechanics, 13(4), 2014, pages 91-96.
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[11] |
Bohdan Mochnacki, Marek Paruch, Cattaneo-Vernotte equation. Identification of relaxation time using evolutionary algorithms, Journal of Applied Mathematics and Computational Mechanics, 12(4), 2013, pages 97-102.
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[12] |
Mariusz Ciesielski, Bohdan Mochnacki, Numerical analysis of interrelations between skin surface temperature and burn wound shape, Scientific Research of the Institute of Mathematics and Computer Science, 11(1), 2012, pages 15-22.
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[13] |
Bohdan Mochnacki, Ewa Majchrzak, Romuald Szopa, A new variant of temporary temperarure field correction method, Scientific Research of the Institute of Mathematics and Computer Science, 11(3), 2012, pages 125-135.
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[14] |
Mariusz Ciesielski, Bohdan Mochnacki, Romuald Szopa, Numerical modeling of biological tissue heating. Admissible thermal dose, Scientific Research of the Institute of Mathematics and Computer Science, 10(1), 2011, pages 11-20.
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[15] |
Bohdan Mochnacki, Marek Paruch, Application of evolutionary algorithms for identification of dual phase lag model parameters, Scientific Research of the Institute of Mathematics and Computer Science, 10(1), 2011, pages 189-198.
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[16] |
Bohdan Mochnacki, Jarosław Siedlecki, Sensitivity of tissue freezing process on changes of time-dependent cryoprobe tip cooling rate, Scientific Research of the Institute of Mathematics and Computer Science, 10(2), 2011, pages 191-197.
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[17] |
Bohdan Mochnacki, Sylwia Lara-Dziembek, Weighted residual method as a tool of FDM algorithm construction, Scientific Research of the Institute of Mathematics and Computer Science, 9(1), 2010, pages 147-153.
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[18] |
Bohdan Mochnacki, Jarosław Siedlecki, Wioletta Tuzikiewicz, Influence of cryoprobe cooling/heating rate on the course of freezing process, Scientific Research of the Institute of Mathematics and Computer Science, 9(2), 2010, pages 197-202.
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[19] |
Ewa Majchrzak, Bohdan Mochnacki, Jolanta Poteralska, 'One-shot' identification of laser intensity in a process of thin metal film heating, Scientific Research of the Institute of Mathematics and Computer Science, 8(1), 2009, pages 131-136.
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[20] |
Ewa Majchrzak, Bohdan Mochnacki, Józef S. Suchy, Heat transfer in domain of metal superficial layer subjected to a strong external heat flux, Scientific Research of the Institute of Mathematics and Computer Science, 7(1), 2008, pages 121-128.
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[21] |
Bohdan Mochnacki, Mirosław Dziewoński, Evaporation effect in domain of tissue subjected to a strong external heat source, Scientific Research of the Institute of Mathematics and Computer Science, 7(1), 2008, pages 149-154.
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[22] |
Ewa Majchrzak, Bohdan Mochnacki, Józef S. Suchy, Kinetics of casting solidification - an inverse approach, Scientific Research of the Institute of Mathematics and Computer Science, 6(1), 2007, pages 169-178.
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[23] |
Bohdan Mochnacki, Ewa Majchrzak, Romuald Szopa, Józef S. Suchy, Inverse problems in the thermal theory of foundry processes, Scientific Research of the Institute of Mathematics and Computer Science, 5(1), 2006, pages 154-169.
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[24] |
Bohdan Mochnacki, Andrzej Metelski, Jarosław Siedlecki, Identification of solidification model parameters, Scientific Research of the Institute of Mathematics and Computer Science, 5(1), 2006, pages 170-175.
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[25] |
Bohdan Mochnacki, Andrzej Metelski, Identification of internal heat source capacity in the heterogeneous domain, Scientific Research of the Institute of Mathematics and Computer Science, 4(1), 2005, pages 182-187.
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[26] |
Bohdan Mochnacki, Edyta Pawlak, Linear and exponential models of crystallization process simulation, Scientific Research of the Institute of Mathematics and Computer Science, 4(1), 2005, pages 188-194.
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[27] |
Bohdan Mochnacki, Sylwia Lara, Edyta Pawlak, Analysis of segregation process using the broken line model for an infinite cylinder, Scientific Research of the Institute of Mathematics and Computer Science, 3(1), 2004, pages 153-160.
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[28] |
Bohdan Mochnacki, Ewa Majchrzak, Józef S. Suchy, Sensitivity analysis of macrosegregation process, Scientific Research of the Institute of Mathematics and Computer Science, 3(1), 2004, pages 161-164.
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[29] |
Bohdan Mochnacki, Sebastian Freus, Numerical simulation of transient heat diffusion using the BEM, Scientific Research of the Institute of Mathematics and Computer Science, 2(1), 2003, pages 121-128.
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[30] |
Bohdan Mochnacki, Sylwia Lara, Application of generalized finite difference method in numerical modelling of moving boundary problems, Scientific Research of the Institute of Mathematics and Computer Science, 2(1), 2003, pages 129-143.
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[31] |
Bohdan Mochnacki, Sebastian Freus, Metoda elementów brzegowych - opis modułu dyskretyzacji brzegu i wnętrza obszaru, Scientific Research of the Institute of Mathematics and Computer Science, 1(1), 2002, pages 153-162.
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[32] |
Bohdan Mochnacki, Sylwia Lara, Edyta Pawlak, Application of the enthalpy approach in numerical modelling of solidification process, Scientific Research of the Institute of Mathematics and Computer Science, 1(1), 2002, pages 163-176.
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